/*
 * File: fault_diagnosis_private.h
 *
 * Code generated for Simulink model 'fault_diagnosis'.
 *
 * Model version                  : 1.1
 * Simulink Coder version         : 9.5 (R2021a) 14-Nov-2020
 * C/C++ source code generated on : Thu Mar 14 20:23:48 2024
 *
 * Target selection: ert.tlc
 * Embedded hardware selection: ARM Compatible->ARM Cortex-M
 * Code generation objective: MISRA C:2012 guidelines
 * Validation result: Not run
 */

#ifndef RTW_HEADER_fault_diagnosis_private_h_
#define RTW_HEADER_fault_diagnosis_private_h_
#include "rtwtypes.h"
#include "fault_diagnosis.h"

/* Includes for objects with custom storage classes. */
#include "Pb7200.h"
#include "GlobleDefine.h"
#ifndef UCHAR_MAX
#include <limits.h>
#endif

#if ( UCHAR_MAX != (0xFFU) ) || ( SCHAR_MAX != (0x7F) )
#error Code was generated for compiler with different sized uchar/char. \
Consider adjusting Test hardware word size settings on the \
Hardware Implementation pane to match your compiler word sizes as \
defined in limits.h of the compiler. Alternatively, you can \
select the Test hardware is the same as production hardware option and \
select the Enable portable word sizes option on the Code Generation > \
Verification pane for ERT based targets, which will disable the \
preprocessor word size checks.
#endif

#if ( USHRT_MAX != (0xFFFFU) ) || ( SHRT_MAX != (0x7FFF) )
#error Code was generated for compiler with different sized ushort/short. \
Consider adjusting Test hardware word size settings on the \
Hardware Implementation pane to match your compiler word sizes as \
defined in limits.h of the compiler. Alternatively, you can \
select the Test hardware is the same as production hardware option and \
select the Enable portable word sizes option on the Code Generation > \
Verification pane for ERT based targets, which will disable the \
preprocessor word size checks.
#endif

#if ( UINT_MAX != (0xFFFFFFFFU) ) || ( INT_MAX != (0x7FFFFFFF) )
#error Code was generated for compiler with different sized uint/int. \
Consider adjusting Test hardware word size settings on the \
Hardware Implementation pane to match your compiler word sizes as \
defined in limits.h of the compiler. Alternatively, you can \
select the Test hardware is the same as production hardware option and \
select the Enable portable word sizes option on the Code Generation > \
Verification pane for ERT based targets, which will disable the \
preprocessor word size checks.
#endif

#if ( ULONG_MAX != (0xFFFFFFFFU) ) || ( LONG_MAX != (0x7FFFFFFF) )
#error Code was generated for compiler with different sized ulong/long. \
Consider adjusting Test hardware word size settings on the \
Hardware Implementation pane to match your compiler word sizes as \
defined in limits.h of the compiler. Alternatively, you can \
select the Test hardware is the same as production hardware option and \
select the Enable portable word sizes option on the Code Generation > \
Verification pane for ERT based targets, which will disable the \
preprocessor word size checks.
#endif

/* Skipping ulong_long/long_long check: insufficient preprocessor integer range. */
extern void fault_diagnosis_IncreaseTimer(boolean_T Reset, boolean_T Enable, uint16_T UpperLim,
    real_T Step, B_IncreaseTimer_fault_diagnos_T *localB,
    DW_IncreaseTimer_fault_diagno_T *localDW);
extern void fault_diagnosis_IncreaseTimer1(boolean_T Reset, boolean_T Enable, uint16_T UpperLim,
    real_T Step, B_IncreaseTimer1_fault_diagno_T *localB,
    DW_IncreaseTimer1_fault_diagn_T *localDW);
extern void fault_diagnosis_IncreaseTimer2(boolean_T Reset, boolean_T Enable, uint16_T UpperLim,
    real_T Step, B_IncreaseTimer2_fault_diagno_T *localB,
    DW_IncreaseTimer2_fault_diagn_T *localDW);
extern void fault_diagnosis_IncreaseTimer_f(boolean_T Reset, boolean_T Enable, uint16_T UpperLim,
    real_T Step, B_IncreaseTimer_fault_diagn_i_T *localB,
    DW_IncreaseTimer_fault_diag_d_T *localDW);

#endif                               /* RTW_HEADER_fault_diagnosis_private_h_ */

/*
 * File trailer for generated code.
 *
 * [EOF]
 */
